Node.js log generator for log engine
console log node
Inspection primitives for Causl — commit log, node inspector, why-did-this-update views.
Node.js library for the audit-log plugin
console-log-node
Port of Log4js to work with node.
A replacement for process.exit that ensures stdio are fully drained before exiting.
Minimalist log node messages module | test
Minimalist log node messages module
OpenTelemetry instrumentation for `winston` logger
A library for finding and using SSH public keys
fast mysql driver. Implements core protocol, prepared statements, ssl and compression in native JS
OpenTelemetry instrumentation for `pino` logger
a JSON logging library for node.js services
OpenTelemetry instrumentation for `bunyan` logger
A debug logger package for other Google libraries
Runtime agnostic JS utils
Fastest Levenshtein distance implementation in JS.
node-httpreq is a node.js library to do HTTP(S) requests the easy way
A Lightweight Task Scheduler for Node.js
Log node-task events to console.
ECMAScript JS AST traversal functions
file streams that roll over when size limits, or dates are reached
A very fast HTML parser, generating a simplified DOM, with basic element query support.
Logging node for miu
Fluentd Parser for applications that produce [Bunyan](https://github.com/trentm/node-bunyan) logs.
RabbitMq Trace Logger - Listen to multiple RabbitMq instances and log them to a single location or MongoDb database.
Log your test results into an xml file using testlogger. Special support for nodes like test-script test-case test-step for QA Automation.
This is the simple REST client for Blockchain Node Engine API V1. Simple REST clients are Ruby client libraries that provide access to Google services via their HTTP REST API endpoints. These libraries are generated and updated automatically based on the discovery documents published by the service, and they handle most concerns such as authentication, pagination, retry, timeouts, and logging. You can use this client to access the Blockchain Node Engine API, but note that some services may provide a separate modern client that is easier to use.
A high-performance pure Ruby Red-Black Tree implementation. Features: O(1) key lookup via hybrid hash index, O(log n) insert/delete, lazy Enumerator-based range queries (lt/gt/between), nearest/prev/succ search, memory-efficient node pooling, and MultiRBTree for duplicate keys with first/last value access.
= DESCRIPTION: Provides a Chef handler which can report run status, including any changes that were made, to a Graylog2 server. In the case of failed runs a backtrace will be included in the details reported. = REQUIREMENTS: * A Graylog2 server running somewhere. = USAGE: This example makes of the chef_handler cookbook, place some thing like this in cookbooks/chef_handler/recipes/gelf.rb and add it to your run list. It also assumes your Graylog2 server has set the attribute rsyslog_server to true. log_server = search(:node, "rsyslog_server:true").first if log_server include_recipe "chef_handler::default" gem_package "chef-gelf" do action :nothing end.run_action(:install) # Make sure the newly installed Gem is loaded. Gem.clear_paths require 'chef/gelf' chef_handler "Chef::GELF::Handler" do source "chef/gelf" arguments({ :server => log_server['fqdn'] }) supports :exception => true, :report => true end.run_action(:enable) end Arguments take the form of an options hash, with the following options: * :server - The server to send messages to. * :port (12201) - The port to send on. * :facility (chef-client) - The facility to report under. * :host (node.fqdn) - The host to report messages as coming from. * :blacklist ({}) - A hash of cookbooks, resources and actions to ignore in the change list. = BLACKLISTING: Some resources report themselves as having updated on every run even if nothing changed, or are just things you don't care about. To reduce the amount of noise in your logs these can be ignored by providing a blacklist. In this example we don't want to be told about the GELF handler being activated: chef_handler "Chef::GELF::Handler" do source "chef/gelf" arguments({ :server => log_server['fqdn'], :blacklist => { "chef_handler" => { "chef_handler" => [ "nothing", "enable" ] } } }) supports :exception => true, :report => true end.run_action(:enable) = LICENSE and AUTHOR: Author:: Jon Wood (<jon@blankpad.net>) Copyright:: 2011, Blank Pad Development Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.
Chef-Berksfile-Env ================== A Chef plugin which allows you to lock down your Chef Environment's cookbook versions with a Berksfile. This is effectively the same as doing `berks apply ...` but via `knife environment from file ...`. View the [Change Log](https://github.com/bbaugher/chef-berksfile-env/blob/master/CHANGELOG.md) to see what has changed. Installation ------------ /opt/chef/embedded/bin/gem install chef-berksfile-env Usage ----- In your chef repo create a Berksfile next to your Chef environment file like this, chef-repo/environments/[ENV_NAME]/Berksfile This is the default location that will used by the plugin. We have to put the Berksfile in its own directory since [multiple Berksfiles can't exist in the same directory](https://github.com/berkshelf/berkshelf/issues/1247). The berksfile should include any cookbooks that your nodes or roles explicitly mention for that environment, source "https://supermarket.getchef.com" cookbook "java" cookbook "yum", "~> 2.0" ... Next we need to generate our Berksfile's lock file, berks install Your environment file must by in `.rb` format and look like this, require 'chef-berksfile-env' # The name must be defined first so we can use it to find the Berksfile name "my_env" # Load Berksfile locked dependencies as my environment's cookbook version contraints load_berksfile ... Now our environment will use the locked versions of the cookbooks and transitive dependencies generated by our Berksfile. Upgrading to the latest dependecies is now as simple as, berks install Our Berksfile also provides an easy way to ensure all the cookbooks and their versions that our environment requires are uploaded to our chef-server, berks upload How the Plugin Finds the Berksfile ---------------------------------- If you are curious how the plugin knows to find the Berksfile in `chef-repo/environments/[ENV]/Berksfile`, you want to put your Berksfile somewhere else or you have run into this error `Expected Berksfile at [/path/../Berksfile] but does not exist`, this section will explain how this works and ways to tweak the path or fix your error. `load_berksfile` has an optional argument which represents the path to your Berksfile. This path can be pseduo relative (explained in a moment) or absolute. By default the value is `environments/[ENV_NAME]/Berksfile`. By pseduo relative I mean that its a relative path but the plugin will check to see if the directory we are executing from partially matches our relative path. So if we are running knife from `/home/chef-repo/environments` and our relative path is `chef-repo/environments/dev/Berksfile` the plugin will see that the relative path is partially included in our execution directory and will attempt to merge the two to come up with `/home/chef-repo/environments/dev/Berksfile`. If we can't make any match at all we attempt to guess the path by just joining the relative path with our execution directory. So why do we do this? Well the only way to use this plugin is if your environment is in Ruby format. Chef's `knife from file ...` uses Ruby's `instance_eval` in order to do this. This means the code on Chef's end effectively looks like this, env.instance_eval(IO.read(env_ruby_file)) which means that any context about the location of the environment file is lost. So we have no great way to discern the location of our environment Ruby file, so instead we guess.
http://www.engineyard.com/blog/2010/extending-rails-3-with-railties/ http://www.igvita.com/2010/08/04/rails-3-internals-railtie-creating-plugins/ h1. Morning Glory Morning Glory is comprised of a rake task and helper methods that manages the deployment of static assets into an Amazon CloudFront CDN's S3 Bucket, improving the performance of static assets on your Rails web applications. _NOTE: You will require an Amazon Web Services (AWS) account in order to use this gem. Specially: S3 for storing the files you wish to distribute, and CloudFront for CDN distribution of those files._ This version of Morning Glory works with Rails 3.x and Ruby 1.9.x h2. What does it do? Morning Glory provides an easy way to deploy Ruby on Rails application assets to the Amazon CloudFront CDN. It solves a number of common issues with S3/CloudFront. For instance, CloudFront won't automatically expire old assets stored on edge nodes when you redeploy new assets (the Cloudfront expiry time is 24 hours minimum). To fix this Morning Glory will automatically namespace asset releases for you, then update all references to those renamed assets within your stylesheets ensuring there are no broken asset links. It also provides a helper method to rewrite all standard Rails asset helper generated URLs to your CloudFront CDN distributions, as well as handling switching between HTTP and HTTPS. Morning Glory was also built with SASS (Syntactically Awesome Stylesheets) in mind. If you use Sass for your stylesheets they will automatically be built before deployment to the CDN. See http://sass-lang.com/ for more information on Sass.s h2. What it doesn't do Morning Glory cannot configure your CloudFront distributions for you automatically. You will manually have to login to your AWS Management Console account, "https://console.aws.amazon.com/cloudfront/home":https://console.aws.amazon.com/cloudfront/home, and set up a distribution pointing to an S3 Bucket. h2. Installation <pre> gem 'morning_glory' </pre> h2. Usage Morning Glory provides it's functionality via rake tasks. You'll need to specify the target rails environment configuration you want to deploy for by using the @RAILS_ENV={env}@ parameter (for example, @RAILS_ENV=production@). <pre> rake morning_glory:cloudfront:deploy RAILS_ENV={YOUR_TARGET_ENVIRONMENT} </pre> h2. Configuration h3. The Morning Glory configuration file, @config/morning_glory.yml@ You can specify a configuration section for every rails environment (production, staging, testing, development). This section can have the following properties defined: <pre> --- production: enabled: true # Is MorningGlory enabled for this environment? bucket: cdn.production.foo.com # The bucket to deploy your assets into s3_logging_enabled: true # Log the deployment to S3 revision: "20100317134627" # The revision prefix. This timestamp automatically generateed on deployment delete_prev_rev: true # Delete the previous asset release (save on S3 storage space) </pre> h3. The Amazon S3 authentication keys configuration file, @config/s3.yml@ This file provides the access credentials for your Amazon AWS S3 account. You can configure keys for all your environments (production, staging, testing, development). <pre> --- production: access_key_id: YOUR_ACCESS_KEY secret_access_key: YOUR_SECRET_ACCESS_KEY </pre> Note: If you are deploying your system to Heroku, you can configure your Amazon AWS S3 information with the environment variables S3_KEY and S3_SECRET instead of using a configuration file. h3. Set up an asset_host For each environment that you'd like to utilise the CloudFront CDN for you'll need to define the asset_host within the @config/environments/{ENVIRONMENT}.rb@ configuration file. As of June 2010 AWS supports HTTPS requests on the CloudFront CDN, so you no longer have to worry about switching servers. (Yay!) h4. Example config/environments/production.rb @asset_host@ snippet: Here we're targeting a CNAME domain with HTTP support. <pre> ActionController::Base.asset_host = Proc.new { |source, request| if request.ssl? "#{request.protocol}#{request.host_with_port}" else "#{request.protocol}assets.example.com" end } </pre> h3. Why do we have to use a revision-number/namespace/timestamp? Once an asset has been deployed to the Amazon Cloudfront edge servers it cannot be modified - the version exists until it expires (minimum of 24 hours). To get around this we need to prefix the asset path with a revision of some sort - in MorningGlory's case we use a timestamp. That way you can deploy many times during a 24 hour period and always have your latest revision available on your web site. h2. Dependencies h3. AWS S3 Required for uploading the assets to the Amazon Web Services S3 buckets. See "http://amazon.rubyforge.org/":http://amazon.rubyforge.org/ for more documentation on installation. h2. About the name Perhaps not what you'd expect; a "Morning Glory":http://en.wikipedia.org/wiki/Morning_Glory_cloud is a rare cloud formation observed by glider pilots in Australia (see my side project, "YourFlightLog.com for flight-logging software for paraglider and hang-glider pilots":http://www.yourflightlog.com, from which the Morning Glory plugin was originally extracted). Copyright (c) 2010 "@AdamBurmister":http://twitter.com/adamburmister/, released under the MIT license
Contentful API wrapper library exposing an ActiveRecord-like interface
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